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Ldtype (J) and tsc1w243x MARCM clones (K-M), GFP-marked (arrowheads

Ldtype (J) and tsc1w243x MARCM clones (K-M), GFP-marked (arrowheads) tsc1w243x bristles pigment prematurely, red in M and O is autofluorescence of the cuticle. Premature pupal bristle pigmentation is suppressed in rheb2D1, tsc1R453x clones, marked by arrowheads (N,O) and GFP (green, O). Genotypes of flies: Y/w, UAS-dicer2; pannier-Gal4/+(B), Y/w, UAS-dicer2; UAS-Rheb-GFP/+, pannier-Gal4/+(C), Y/w, UAS-dicer2; UAS-Rheb/+; pannier-Gal4/+(D,I), w/yw, Ubx-flp; scabrous-Gal4,UAS-Pon-GFP, UAS-Tau-GFP/+; FRT82B, tsc1w243x/FRT82B tub-Gal80 (E, K ), w/yw, Ubx-flp; scabrous-Gal4,UAS-Pon-GFP, UAS-tauGFP/+; tsc2109 FRT80B/tub-Gal80 FRT80B (F). Y/w; UAS-Rheb/+, pannier-Gal4/UAS-tsc1,UAS-tsc2 (G), Y/w, UAS-dicer2; UAS-Rheb/+, pannier-Gal4/UAStsc2RNAi (H). w/yw, Ubx-flp; scabrous-Gal4,UAS-actin-GFP/+; FRT82B rheb2D1, tsc1R453x/FRT82B tub-Gal80 (N,O). doi:10.1371/journal.pone.0048720.gexpressed throughout the pannier-Gal4 expression 1326631 domain (Fig. 1B), the darkening of the thoracic cuticle was almost exclusively confined to posterior-most region of the notum, a region referred to as the “trident”. In order to exclude the possibility that the cuticle darkening phenotype in this cross was due to a genetic background effect, we crossed pannier-Gal4 to two independent Pelement insertions of UAS-Rheb-GFP and to the rhebAV4 allele, which contains a UAS-bearing P element insertion within theUTR of Rheb (Fig. S1C). In all cases, we observed darkening of the cuticle on both the HIV-RT inhibitor 1 site thorax and abdomen in a similar pattern. TSC2 functions as a GTPase activating protein (GAP) for Rheb, and along with its TSC1 binding partner, maintain Rheb in a GDP-bound, inactive state (Fig. 18055761 1A) [10?2]. In order to test whether the thoracic increased pigmentation phenotype is due to inappropriate activity of endogenous Rheb, we used the MARCM (mosaic analysis with a repressible cell marker) system [13] toTORC1 Controls Drosophila Pigmentationgenerate clones of either mutant tsc1 or tsc2. In adult flies of the appropriate genotypes, we observed regions of the thorax that contained ectopic pigmentation, as well as increased cell size, and duplicated bristles on the pupal thorax, however, the increased pigmentation and thickness of the adult cuticle precluded us from visualizing the GFP marker to positively identify these regions as tsc1 or tsc2 mutant (Fig. 1E, F). Nonetheless, Gracillin chemical information consistent with the idea that TSC1/2-dependent regulation of Rheb contributes to control of pigmentation, overexpression of TSC1 and TSC2 strongly suppressed the pigmentation and growth phenotypes in Rheb overexpressing flies (Fig. 1G), while knockdown of tsc2 by RNAi significantly enhanced the Rheb-induced pigmentation (Fig. 1H, and Fig. S1D) on the adult thorax. Pigmentation of the pupal cuticle begins at the late stages of metamorphosis (stages P10) [14], proceeding as an anteriorposterior wave of mechanosensory bristle pigmentation, followed by post-eclosion cuticular tanning [15]. We therefore evaluated the onset of pigmentation in either Rheb overexpressing or tsc1 mutant mechanosensory bristles. We saw that while the lateral thoracic mechanosensory bristles, which are outside the pannierGal4 expression domain, were unpigmented in stage P10 pannierGal4, UAS-Rheb pupa, the dorsal bristles within the pannier-Gal4 expression domain were strikingly dark along a broad dorsal stripe (Fig. 1I). Similarly, we found that in tsc1 MARCM clones (which could be definitively identified by strong GFP expression at this d.Ldtype (J) and tsc1w243x MARCM clones (K-M), GFP-marked (arrowheads) tsc1w243x bristles pigment prematurely, red in M and O is autofluorescence of the cuticle. Premature pupal bristle pigmentation is suppressed in rheb2D1, tsc1R453x clones, marked by arrowheads (N,O) and GFP (green, O). Genotypes of flies: Y/w, UAS-dicer2; pannier-Gal4/+(B), Y/w, UAS-dicer2; UAS-Rheb-GFP/+, pannier-Gal4/+(C), Y/w, UAS-dicer2; UAS-Rheb/+; pannier-Gal4/+(D,I), w/yw, Ubx-flp; scabrous-Gal4,UAS-Pon-GFP, UAS-Tau-GFP/+; FRT82B, tsc1w243x/FRT82B tub-Gal80 (E, K ), w/yw, Ubx-flp; scabrous-Gal4,UAS-Pon-GFP, UAS-tauGFP/+; tsc2109 FRT80B/tub-Gal80 FRT80B (F). Y/w; UAS-Rheb/+, pannier-Gal4/UAS-tsc1,UAS-tsc2 (G), Y/w, UAS-dicer2; UAS-Rheb/+, pannier-Gal4/UAStsc2RNAi (H). w/yw, Ubx-flp; scabrous-Gal4,UAS-actin-GFP/+; FRT82B rheb2D1, tsc1R453x/FRT82B tub-Gal80 (N,O). doi:10.1371/journal.pone.0048720.gexpressed throughout the pannier-Gal4 expression 1326631 domain (Fig. 1B), the darkening of the thoracic cuticle was almost exclusively confined to posterior-most region of the notum, a region referred to as the “trident”. In order to exclude the possibility that the cuticle darkening phenotype in this cross was due to a genetic background effect, we crossed pannier-Gal4 to two independent Pelement insertions of UAS-Rheb-GFP and to the rhebAV4 allele, which contains a UAS-bearing P element insertion within theUTR of Rheb (Fig. S1C). In all cases, we observed darkening of the cuticle on both the thorax and abdomen in a similar pattern. TSC2 functions as a GTPase activating protein (GAP) for Rheb, and along with its TSC1 binding partner, maintain Rheb in a GDP-bound, inactive state (Fig. 18055761 1A) [10?2]. In order to test whether the thoracic increased pigmentation phenotype is due to inappropriate activity of endogenous Rheb, we used the MARCM (mosaic analysis with a repressible cell marker) system [13] toTORC1 Controls Drosophila Pigmentationgenerate clones of either mutant tsc1 or tsc2. In adult flies of the appropriate genotypes, we observed regions of the thorax that contained ectopic pigmentation, as well as increased cell size, and duplicated bristles on the pupal thorax, however, the increased pigmentation and thickness of the adult cuticle precluded us from visualizing the GFP marker to positively identify these regions as tsc1 or tsc2 mutant (Fig. 1E, F). Nonetheless, consistent with the idea that TSC1/2-dependent regulation of Rheb contributes to control of pigmentation, overexpression of TSC1 and TSC2 strongly suppressed the pigmentation and growth phenotypes in Rheb overexpressing flies (Fig. 1G), while knockdown of tsc2 by RNAi significantly enhanced the Rheb-induced pigmentation (Fig. 1H, and Fig. S1D) on the adult thorax. Pigmentation of the pupal cuticle begins at the late stages of metamorphosis (stages P10) [14], proceeding as an anteriorposterior wave of mechanosensory bristle pigmentation, followed by post-eclosion cuticular tanning [15]. We therefore evaluated the onset of pigmentation in either Rheb overexpressing or tsc1 mutant mechanosensory bristles. We saw that while the lateral thoracic mechanosensory bristles, which are outside the pannierGal4 expression domain, were unpigmented in stage P10 pannierGal4, UAS-Rheb pupa, the dorsal bristles within the pannier-Gal4 expression domain were strikingly dark along a broad dorsal stripe (Fig. 1I). Similarly, we found that in tsc1 MARCM clones (which could be definitively identified by strong GFP expression at this d.